KR100772138B1 - Service wire connect structure laid under the ground - Google Patents

Abstract

An underground wire connecting structure is provided to immediately notify the sinking of the ground to a central control center and continuously support an underground pipe until workers for a repair work arrive at the spot. An underground pipe(2) includes an inner pipe, and an outer pipe which is inserted into the outer side of the inner pipe and has a receiving unit. A supporting instrument(100) has a cylinder with opened upper/lower ends, an upper support supporting the underground pipe, a lower support supported by the underground earth, and a spring compressed and arranged between the upper and lower supports. An outer case(200) has an upper plate made of light transmitting material, and a receiving unit inside. The upper plate is exposed over the ground. First and second measuring instruments are installed at the outer case, and include first and second protective cases inside the outer case, first and second guide bars installed inside the first and second protective cases, first and second moving plates coupled at the first and second guide bars, first and second springs pressing the first and second moving plates, first and second permanent magnets installed at the first and second moving plates, and a plurality of first and second magnetic proximity switches inside the first and second protective cases. First and second wires have one end connected to the lower support, and the other end fixed at the moving plates. First and second supporting wires(400) are connected to the first and second moving plates. First and second winders wind the first and second supporting wires and ascend the first and second moving plates. A controlling unit transmits data to a central control center by receiving a location signal from the first and second magnetic proximity switches, and controls the first and second winders. A lighting unit is installed in the outer case, and is turned on/off by the controlling unit. A pipe is connected to the underground pipe, and has the upper end exposed to the receiving unit of the outer case. A checking liquid is charged in the receiving unit of the underground pipe, and the pipe.

Description

Service Wire Connect Structure laid under the ground}

The present invention relates to an underground buried distribution line connection structure that stably protects underground pipes and cables when soil is scoured or settled by groundwater.

In general, underground lines of residential, commercial and industrial complexes are laid with conduits containing transmission and distribution cables.

The underground line is composed of underground pipes embedded in the ground and cables disposed inside the underground pipes, and the cables are protected from external forces.

When underground soil is submerged or scoured by water, the middle line of the underground pipe is struck downward, and the underground pipe may be damaged, resulting in a lot of damage due to cable damage. In addition, there is a problem that the maintenance of the underground pipe can not be easily grasped from the ground and the maintenance is delayed.

The present invention has been invented to solve the above problems, the object of the present invention is to provide a ground-type distribution line connection structure that can immediately identify the damage state of underground pipes and cables, thereby quickly repair the damaged cable. have.

The present invention is an underground pipe-type distribution line connection structure consisting of a underground pipe embedded in the ground and a cable disposed inside the underground pipe, the underground pipe is fitted between the inner tube and the outer peripheral surface of the inner tube It consists of an appearance which forms a receiving part; A cylinder having an upper and lower end opened, an upper support for inserting the lower end to the upper side of the cylinder and having an upper end supporting the underground pipe, and a lower support for inserting the upper end to the lower side of the cylinder and being supported by the underground soil. A support mechanism having a spring disposed between the upper support and the lower support in a compressed state; An outer case comprising a top plate made of a light-transmitting material and having an accommodating portion therein and embedded in the ground such that the top plate is exposed to the upper side of the ground; First and second protective cases respectively provided on both sides of the outer case, the first and second guide bars respectively installed in the up and down direction inside the first and second protection cases, and the first and second guide bars respectively coupled to the lifting and lowering. First and second permanent springs, the first and second springs for upwardly pressing the first and second movable plates, and the first and second permanent plates which are respectively mounted on the first and second movable plates to move up and down together with the first and second movable plates. Are installed in the outer case with magnets and a plurality of first and second magnetic proximity positions spaced apart in the vertical direction on the inner wall of the first and second protective cases and acting on the magnetic force of the first and second permanent magnets. 1 · 2 measuring instrument; First and second wires having one end connected to the lower support and the other end fixed to the moving plate; First and second support wires connected to the first and second moving plates; A first and second winding machine connected to the first and second support wires to wind the first and second support wires to lift the first and second moving plates; A control unit which receives the position signal of the first and second moving plates from the first and second magnetic proximity switches, transmits data to the receiver of the central control room, and controls the first and second winding machines; A light emitting unit built in an outer case and connected to the control unit and controlled on and off by the control unit; A pipe connected to the underground pipe so that the inner space communicates with the receiving part of the underground pipe, and an upper end of the translucent material exposed to the receiving part of the outer case; Confirmation liquid filled in the receiving portion and the pipe of the underground pipe is further provided.

According to the present invention, in the underground pipe-type distribution line connection structure consisting of the underground pipe (2) embedded in the ground (1), and the cable (C) disposed inside the underground pipe (2), the underground pipe (2) is It consists of an inner tube (2a) is arranged in the cable (C), and the appearance (2b) spaced apart from the inner tube (2a) by a predetermined interval so that the receiving portion (2c) portion is formed, buried in the ground but below the underground pipe (2) The support mechanism 100 is disposed, the outer case 200 embedded in the ground 1 so as to be located above the underground pipe 2, and the first and second symmetrically installed in the outer case 200. First and second wires 400 and 400 ', one end of which is connected to the support mechanism 100 and the other end of which is connected to the first and second measuring instruments 300 and 300', and the first and second measuring instruments 300 and 300 '. The first and second support wires 500 and 500 'connected to the 300 and 300', the first and second winding machines 600 and 600 'winding the first and second support wires 500 and 500', and the first and second measuring mechanisms Control oil connected to 300,300 ' Net 700, a light emitting unit 800 connected to the control unit 700 and ON / OFF controlled by the control unit 700, and a pipe 900 connected to the exterior (2b) of the underground pipe (2) And, the confirmation liquid (L) is filled with the receiving portion (2c) of the underground pipe (2) and the internal space 910 of the pipe 900 is further provided, the ground located below the underground pipe (2) is groundwater When scrubbing or sinking, etc., the situation is immediately notified to the central control room, and underground piping (2) is continuously supported until the recovery team arrives.

Hereinafter will be described in detail with reference to the accompanying drawings.

1 is an overall schematic view showing a buried underground distribution line connection structure according to the present invention, Figure 2 is a cross-sectional view showing a buried underground distribution line connection structure according to the present invention, Figure 3 is a buried underground distribution line connection structure according to the present invention 4 is a cross-sectional view showing a configuration between the measuring unit, the control unit, the light emitting unit, and the first and second winding machines according to the present invention.

Referring to Figure 1 to Figure 4 describes the underground connection type distribution line connection structure according to the present invention.

The buried pipe for protection of underground wiring and joint infrastructure according to the present invention is composed of a structure including a underground pipe (2) embedded in the ground (1), and a cable (C) disposed inside the underground pipe (2) The same thing as the conventional one.

In this case, the underground pipe 2 is composed of an inner tube 2a in which the cable C is disposed, and an outer tube 2a spaced apart from the inner tube 2a by a predetermined interval so that the receiving portion 2c is formed.

In addition, the underground underground distribution line connection structure is buried in the ground, the support mechanism 100 is disposed in the lower portion of the underground pipe (2), and the outer case buried in the ground (1) to be located above the underground pipe (2) And the first and second measuring mechanisms 300 and 300 'which are installed in the outer case 200 and are symmetrically installed, one end of which is connected to the supporting mechanism 100 and the other end of the first and second measuring mechanisms 300 and 300. First and second wires (400,400 ') connected to the'), first and second support wires (500,500 ') connected to the first and second measuring devices (300,300'), and first and second support wires (500,500 '). ) Is wound on the first and second winding machines (600,600 '), the control unit (700) connected to the first and second measuring devices (300, 300'), and the control unit (700) by the control unit (700). An internal space of the light emitting unit 800 to be controlled ON / OFF, the pipe 900 connected to the exterior 2b of the underground pipe 2, the receiving portion 2c of the underground pipe 2 and the pipe 900. Confirmation liquid (L) is filled in the portion 910 is further provided .

The support mechanism 100 includes a cylinder 110 having an upper and lower openings, an upper support 120 inserted into an upper portion of the cylinder 110 so as to be elevated, and a lower support inserted into a lower portion of the cylinder 110. 130 and a spring 140 disposed between the upper support 120 and the lower support 130.

The upper support 120 is composed of an upper support plate 121 for supporting the underground pipe (2) exposed to the outside of the upper cylinder 110, and a lower insertion portion 122 is inserted into the cylinder 110 to be elevated. do.

The lower support 130 has an upper inserting portion 131 which is inserted into the cylinder 110 so as to be elevated, and an inclined surface 1321a protruding upward from the periphery thereof, and is exposed to the lower portion of the cylinder 110. The lower support plate 132 is supported by.

The spring 140 is inserted into the cylinder 110 in a compressed state in the up and down direction so that the lower end is fixed to the upper insertion part 131 of the lower support 130, and the upper end is the lower insertion part of the upper support 120. 122 is fixed to, when the lower support 130 of the support mechanism 100 is lowered as the soil of the lower portion of the underground pipe (2) is lost, the spring 140 is extended to continue the upper support 130 By pressing upward, the underground pipe (2) is supported so as not to fall. Meanwhile, when installing the support mechanism 100, the spring 140 may be compressed by pressing the upper support 130 downward while the lower support 130 is seated on the soil.

The outer case 200, the upper plate 220 is made of a light-transmissive material, the receiving portion 210 is formed on both inner sides, the upper plate 220 on the ground (1) so as to be exposed to the upper side of the ground (1) Buried.

The first and second measuring mechanisms 300 and 300 ′ include first and second protective cases 310 and 310 ′ respectively installed in the accommodating part 210 of the outer case 200, and first and second protective cases 310 and 310 ′. First and second guide bars 320 and 320 'which are installed in the up and down direction, respectively, and the first and second moving plates 340 and 340' coupled to the first and second guide bars 320 and 320 ', respectively. First and second springs 330 and 330 'for upwardly pressing the first and second travel plates 340 and 340' and first and second moving plates 340 and 340 ', respectively. The first and second permanent magnets 350 and 350 'ascending and descending are spaced apart at regular intervals along the vertical direction on the inner walls of the first and second permanent cases 350 and 350'. It consists of a plurality of first and second magnetic proximity switches 360 and 360 'acting on the magnetic force.

The first and second magnetic proximity switches 360 and 360 'are normal magnetic proximity switches which are turned on and off by the first and second permanent magnets 350 and 350' when the first and second permanent magnets 350 and 350 'are close to each other.

Therefore, when the first and second moving plates 340 and 340 'are moved up and down, the first and second magnetic proximity switches closest to the first and second permanent magnets 350 and 350' which are elevated together with the first and second moving plates 340 and 340 '. 360, 360 'is operated, whereby a position signal indicating the position of the first and second moving plates 340 and 340' is sent to the control unit 500.

 The first and second wires 400 and 400 ′ are connected to the first and second moving plates 340 and 340 ′ through upper ends of the first and second wires 400 and 400 ′, and lower ends of the lower support 130. It is fixed to both ends of the support plate 132, respectively.

One end of the first and second support wires 500 and 500 'is fixed to the first and second moving plates 340 and 340' and the other end is provided through the pulley R provided inside the outer case 200. Guided to the winding machine (600,600 ') is fixed to the first and second winding machine (600,600').

 The first and second winding machines 600 and 600 'are connected to the control unit 700 and installed in the outer case 200, and the first and second support wires 500 and 500' are first and second winding machines 600 and 600 '. It is connected to the drive shaft of the lower support 130 is controlled by the control unit 700 when the lower direction is moved by winding the first and second wires (400, 400 ') lower support 130 upward.

The control unit 700 receives the first and second winding machines when the first and second moving plates 340 and 340 'are lowered from the reference position and the position signal is output from the first and second measuring instruments 300 and 300'. By operating the 600 and 600 ', the first and second winding machines 600 and 600' wind the first and second support wires 500 and 500 'and turn on the light emitting unit 800.

The light emitting unit 800 is accommodated in the accommodating part 210 of the outer case 200, connected to the control unit 700, and controlled by the control unit 700 to be turned on and off. The light emitting unit 800 may be an LED, a lamp, or the like.

The pipe 900 is erected in the vertical direction while the lower end is connected to the exterior 2b of the underground pipe 2 so that the internal space 910 communicates with the receiving portion 2c of the underground pipe 2. On the other hand, the pipe 900 is buried in the ground portion is made of a high strength steel material, the upper portion exposed to the receiving portion 210 of the outer case 200 is made of a transparent resin.

The checking liquid (L) is filled in the receiving portion (2c) of the underground pipe (2) and the internal space portion 910 of the pipe 900, when the crack occurs in the underground pipe (2) of the underground pipe (2) It exits from the accommodating part 2c. On the other hand, the confirmation liquid (L) is configured to have a fluorescent function for easy visual identification.

5 to 7 are views showing the operating state of the underground buried distribution line connection structure according to the present invention, the operation state of the underground buried distribution line connection structure according to the present invention with reference to FIGS. .

As shown in FIG. 1, the support mechanism 100 supports the underground pipe 2 in a state in which the spring 140 is compressed, and the first and second moving plates 340 and 340 'are raised to the reference height, and the pipe 900 is provided. In the state in which the confirmation liquid is filled to the reference water level, when the earth and sand located in the lower portion of the underground pipe (2) by the water flowing to the lower portion of the underground pipe (2), the lower support 130 is lowered. At this time, even if the lower support 130 is lowered, the spring 140 is extended to continuously press the upper support 120, thereby supporting the underground pipe (2) continuously.

Then, as the lower support 130 is lowered, the first and second moving plates 340 and 340 'connected to the first and second wires 400 and 400' and the first and second wires 400 and 400 'are lowered and lowered. The first and second measuring instruments 300 and 300 ′ detect this and output a position signal indicating to the control unit 700 that the first and second moving plates 340 and 340 ′ have been lowered. Therefore, the control unit 700 turns on the light emitting unit 800 and transmits a position signal to the receiver H of the central control room, and drives the first and second winding machines 600 and 600 '. Winding up the two support wires (500, 500 '), the lower support 130 is pulled upward.

 Therefore, the situation worker in the central control room can check the receiver (H) immediately knows where the earth and sand of the underground pipe (2) is lost to take a quick action, and near the point of loss through the light emitting unit 600 This can be quickly checked by the operator at.

On the other hand, when a large external force acts on the underground pipe 2 and a crack occurs, the confirmation liquid L accommodated in the receiving portion 2c of the underground pipe 2 passes through the crack, so that the pipe 900 ) The level of the check liquid contained in the lower. After confirming this, the worker can recognize that a crack occurred in the underground pipe 2, and can immediately take appropriate measures accordingly.

As described above, the wiring structure of the underground distribution cable according to the present invention, when the ground located below the underground pipe (2) is scoured by groundwater, etc., immediately informs the central control room of the situation, and the ground until the recovery team arrives. Since the pipe 2 is continuously supported, there is an effect that can maintain the stability of the cable (C). In addition, through the light emitting unit 800, nearby workers can easily find the sinking position, it is possible to check whether the underground pipe (2) cracks.

1 is an overall schematic view showing a buried underground distribution line connection structure according to the present invention,

Figure 2 is a cross-sectional view showing a buried underground distribution line connection structure according to the present invention,

3 is another cross-sectional view showing a buried underground distribution line connection structure according to the present invention,

4 is a configuration diagram between the measuring unit, the control unit, the light emitting unit, and the first and second driving devices according to the present invention;

5 to 7 shows the operating state of the underground buried distribution line connection structure according to the present invention.

Explanation of terms for main parts of attached drawings

One ; Ground 2; Underground piping

C; Cable 100; Support mechanism

200; Outer case 300,300 '; 1st and 2nd measuring instrument

400,400 '; First and second wires 500,500 '; 1st and 2nd support wire

600,600 '; First and second drive units 700; Control unit

800; Light emitting unit 900; pipe

L; Liquid

Claims (1)

In the underground buried distribution line connection structure consisting of the underground pipe (2) embedded in the ground (1), and the cable (C) disposed inside the underground pipe (2), The underground pipe (2) is made up of an outer tube (2a) and an outer tube (2b) which is fitted to the outside of the inner tube (2a) and forms a receiving portion (2c) between the outer circumferential surface of the inner tube (2a);  The upper and lower ends of the cylinder 110, the lower end is inserted into the upper and lower sides of the cylinder 110, the upper support 120 for supporting the underground pipe (2), and the upper end of the cylinder 110 Support mechanism 100 having a lower support 130 is inserted into the lift and supported by the underground soil, and the spring 140 is disposed between the upper support 120 and the lower support 130 in a compressed state Wow ; The upper plate 220 is made of a light-transmissive material, the receiving portion 210 is formed therein, the outer case 200 embedded in the ground (1) so that the upper plate 220 is exposed to the upper side of the ground (1); First and second protective cases 310 and 310 'provided at both sides of the outer case 200, and first and second guide bars 320 and 320' respectively installed in the first and second protective cases 310 and 310 'in the vertical direction. ) And the first and second movable plates 340 and 340 'coupled to the first and second guide bars 320 and 320', respectively, and the first and second movable plates 340 and 340 ', respectively. First and second permanent magnets 350 and 350 'installed on the two springs 330 and 330' and the first and second moving plates 340 and 340 ', respectively, to elevate with the first and second moving plates 340 and 340'. 2 A plurality of first and second magnetic proximity switches 360 and 360 'installed on the inner walls of the protective cases 310 and 310' to be spaced apart in the vertical direction to act on the magnetic force of the first and second permanent magnets 350 and 350 '. First and second measuring mechanisms 300 and 300 'internally installed in the outer case 200; First and second wires 400 and 400 'having one end connected to the lower support 130 and the other end fixed to the moving plates 340 and 340'; First and second support wires 500 and 500 'connected to the first and second moving plates 340 and 340'; The first and second winding machines 600 and 600 'which are connected to the first and second supporting wires 500 and 500' and wind the first and second supporting wires 500 and 500 'to lift the first and second moving plates 340 and 340'. Wow ; Receives the position signal of the first and second moving plates 340 and 340 'from the first and second magnetic proximity switches 360 and 360' and transmits the data to the receiver H of the central control room, and the first and second winding machines 600 and 600 '. A control unit 700 for controlling the operation; A light emitting unit 800 internally installed in the outer case 200 and connected to the control unit 700 and controlled ON / OFF by the control unit 700; The inner space 910 is connected to the underground pipe 2 so as to communicate with the receiving portion 2c of the underground pipe 2, the upper end of the translucent material is exposed to the receiving portion 210 of the outer case 200 ( 900); Confirming liquid (L) is filled in the receiving portion (2c) and the pipe 900 of the underground pipe (2); Underground type distribution line connection structure characterized in that it is further provided.

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